Analysis of the Intracellular Transport Properties of Recombinant La Crosse Virus Glycoproteins

AbstractThe G1 and G2 glycoproteins of La Crosse virus, a member of theBunyavirusgenus of the Bunyaviridae, are encoded as a single open reading frame (ORF) in the viral middle-sized RNA segment. The primary product from this ORF is processed, either cotranslationally or shortly after translation, into the two glycoproteins and a nonstructural protein, NSm, of unknown function. We have expressed La Crosse glycoproteins using vaccinia vectors and studied their processing and localization. When expressed in the native G2-NSm-G1 configuration, both G1 and G2 targeted to the Golgi apparatus as shown by their colocalization with wheat germ agglutinin and acquired resistance to endoglycosidase H. When expressed independently, G2 was targeted to the Golgi apparatus but G1 was retained in the endoplasmic reticulum, indicating that a G1–G2 association is required for Golgi targeting of G1. In contrast to results with other members of the Bunyaviridae, we found that expression of G1 and G2 from separate vectors did not lead to the transport of the G1–G2 complex to the Golgi. However, disruption of the NSm region with a foreign sequence did not interfere with transport of the complex. When a portion of the β-galactosidase gene was inserted in frame into NSm, the glycoproteins derived from this construct were processed and targeted properly and were capable of mediating cell-to-cell fusion

Probing Sequence Variation in the Receptor-Targeting Domain of Feline Leukemia Virus Envelope Proteins with Peptide Display Libraries

Determinants of cellular tropism and receptor targeting lie within a short peptide in the Vr1 region of the envelope (Env) proteins of feline leukemia virus (FeLV) subgroups A and C. Libraries of FeLV Env proteins with random amino acid substitutions in the peptide were screened for their ability to deliver a marker gene to D17 and AH927 cells. Screening on D17 canine cells yielded D17-specific Env proteins that used the FeLV-C receptor. Screening on AH927 cells yielded Env proteins with a broader host range, with maximal titers on AH927 cells and similar or lower titers on other cells. These Env proteins used an unidentified non-FeLV receptor for entry. The A5 isolate obtained from the AH927 screen was readily concentrated to yield titers of 10(5) on human PC-3 prostate tumor cells. The sequence divergence observed among targeting peptides of library-selected Env proteins was greater than that found in parental FeLV isolates. Substitution analyses of a conserved R in the middle of the targeting peptide held constant during screening indicated that maximal titers were obtained only when R was present in both a D17 selected isolate and an AH927 selected isolate. The ability to isolate Env proteins with unique tropisms dependent on the cells on which the library is screened has direct implications for targeting gene delivery vectors